RU56535U1 - BALL VALVE - Google Patents

Abstract

The invention relates to valves, and more particularly to devices with ball valves. The technical result from the use of the utility model is to enable the use of a ball valve in hydraulic systems made of flexible hoses while maintaining the ability to remotely control its ball valve. The ball valve contains a housing with an internal cavity in which the ball valve is located, equipped with means for its rotation. The internal cavity of the housing communicates with two coaxially located holes, one of which is intended for the working medium, and in the second threaded through hole there is a threaded section of the plug made with an axial through hole for the working medium. The housing is equipped with a first nozzle made integral with it and located coaxially with the first through hole. The second pipe is located coaxially with the cork and is made integral with it. In addition, the housing is provided with plate elements made at the same time with it, which are located opposite each other in a plane perpendicular to the axis of the through holes. The first seat seal is located coaxially with the first through hole in its corresponding annular groove, made on the surface of the inner cavity of the housing. The second seat seal is placed in an annular groove made in the tube and aligned with it. 1 s.p. f-ly, 3 ill.

Description

The invention relates to valves, and more particularly to devices with ball valves.

The prior art various designs of ball valves. So in the patent US-A-No. 4061307, 1977 describes a ball valve containing a housing with an internal cavity in communication with two through coaxially arranged openings for the working medium, while in the inner cavity there is a ball valve equipped with means placed on the housing for turning around axis perpendicular to the axis of the through holes, and two saddle seals located coaxially with the corresponding through hole corresponding to each of them and interacting with the opposite parts of the surface of the ball valve ora. The body of the ball valve is made detachable on a plane perpendicular to the axis of the through holes and passing through its internal cavity, and for pairing the ball valve with the pipeline, each part of its body is equipped with a corresponding annular flange.

The disadvantages of this ball valve are low tightness due to the detachable housing, as well as large dimensions due to the use of flange connections with the pipeline.

Also known is a ball valve comprising a housing with an internal cavity communicating with two through-through coaxially located through-holes for the working medium with threaded portions for interfacing the ball valve with the pipeline, while in the internal cavity there is a ball valve equipped with means for turning it around axis perpendicular to the axis of the through holes, and two seat seals located coaxially

a through hole corresponding to each of them and interacting with opposite parts of the surface of the ball valve, and one of the seat seals is pressed against the surface of the ball valve using a support sleeve fixed in the corresponding through hole with a split ring (see US-A patent No. 3948480, 1976).

Known ball valve has small dimensions and weight. However, the use of a saddle seal with an annular locking element does not provide high operational reliability of a ball valve. In addition, this faucet cannot be used in conjunction with flexible pipelines (hoses).

As a prototype taken ball valve described in US-A-No. 4552335, 1985 and containing a housing with an internal cavity communicating with two coaxially located through holes, one of which is intended for the working environment, and the other for placing a threaded section in it plugs with an axial through hole for the working medium, while in the inner cavity of the housing there is a ball valve equipped with remote control and placed on the housing with means for its rotation around the axis, perpendi the uniform axis of the through holes, and two saddle seals located coaxially with the through hole corresponding to each of them and interacting with opposed to each other surface sections of the ball valve, one of the saddle seals being placed in its corresponding annular groove made on the surface of the inner cavity, the other saddle the seal is pressed against the surface area of the ball valve by a screw plug, and both openings for the working medium are made with threaded sections for stretching a ball valve with a pipeline.

The prototype has the following disadvantages. Firstly, the known ball valve cannot be used in systems with flexible pipelines (for example, with hoses), since its fixation in space is ensured by the rigidity of the pipelines to which it is connected. Secondly, in order to ensure reliable sealing of the seat seal freely located in the internal cavity of the seat seal against the ball valve by means of a plug, this seat seal is reinforced, in other words, has a complex structure. This utility model is aimed at solving the technical problem of ensuring the possibility of using a ball valve in hydraulic systems made of flexible hoses while maintaining its technical and operational parameters, including the possibility of remote control of its ball valves, due to the possibility of rigid fixation of the position of the ball valve in space and simplifying the assembly process, as well as the design of saddle seals.

The problem is solved in that a ball valve containing a housing with an internal cavity communicating with two coaxially located through holes, the first through hole is intended for the working medium, and in the second threaded through hole there is a threaded section of the plug with an axial through hole for the working medium, a spherical shutter is placed in the inner cavity of the housing, provided with means for remote control and placed on the housing with means for turning it around an axis, perpendicular the open axle of the through holes, and the first seat seal located coaxially with the first through hole in its corresponding annular groove made on the surface of the inner cavity of the housing, and the second saddle seal is located coaxially with the second through hole and pressed with a screw plug to the surface portion of the ball valve located opposite the plot

The surface of a ball valve cooperating with a first seat seal, according to a utility model, further comprises two nozzles for connecting respective flexible hoses and two plate elements, each of which is provided with at least one hole for a threaded fastener, wherein the first nozzle is located coaxial with the first through hole and made integral with the body, the second pipe is aligned with the cork and made integral with it, the seat seals are made of polymer material moreover, the second saddle seal is placed in an annular groove made in the tube and coaxial to it, and the plate elements are integral with the housing and are located opposite each other in a plane perpendicular to the axis of the through holes.

In addition, the task is also solved by the fact that the means for rotating the ball valve are made in the form of a rod located coaxially with the ball valve and hermetically relative to the housing, while one end of the rod is placed in its corresponding blind hole made in the ball valve, and at the other end the rod is fixed with a leash and two bends, interacting in turn with a stop made on the housing, respectively, in the open and closed positions of the ball valve, the leash is made with an opening for connecting it with remote controls, and plate elements are located symmetrically relative to the plane passing through the center of the ball valve and perpendicular to the axis of rotation.

Thus, the proposed embodiment of the ball valve housing and plugs is integral with the corresponding pipe for connecting to the corresponding flexible hose, as well as the execution of the ball valve housing is integral with two plate elements, each of which is made with at least one hole under the threaded the fixing element, and the plate elements themselves are located opposite

each other in a plane perpendicular to the axis of the through holes of the housing, while maintaining high tightness, provides the ability not only to pair the ball valve with a hydraulic system made in whole or in part from flexible hoses, but also to maintain the same operational parameters (including the possibility of remote control of the ball crane), due to the possibility of rigid fixation of the ball valve, but not due to its use in hydraulic systems with metal pipelines, as in the prototype, but with using threaded fasteners. In addition, the difficulties known from the prototype (associated with ensuring the location of the second saddle seal that is coaxial with the through-hole axis during assembly of the ball valve) are further aggravated by making the plug integral with the second nozzle for connection to the corresponding flexible hose. The proposed placement of the second saddle seal in the annular groove made in the plug leads, on the one hand, to simplify the assembly process of the ball valve and increase the reliability of its operation by eliminating lateral displacements of the second saddle seal, and, on the other hand, to the possibility of using non-reinforced ones (as in the prototype ), and cheaper saddle seals made entirely of polymeric materials, such as fluoroplastic.

Means for rotating the ball valve, made in the form of a rod located coaxially with the ball valve and hermetically relative to the housing, provide (as follows from the prototype) the possibility of using them together with the simplest mechanical means of remote control, for example using a cable.

In the future, the utility model is illustrated by a specific example, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the expected technical result by the above set of essential features.

Figure 1 shows a longitudinal section of a ball valve in the open position; figure 2 - ball valve top view; figure 3 is the same side view in the closed position, a partial section.

The ball valve comprises a housing 1 with a first nozzle 2 made at the same time as connecting with it a flexible hose and two plate elements 3 and 4, a plug 5 with a threaded section 6 and a second nozzle 7 made integral with it for connecting another flexible hose. The housing 1 and plug 5 are made, for example, of aluminum alloy AK9M2. The housing 1 is made with a first through hole 8, intended for the working medium, with an internal cavity 9 and with a second through threaded hole 10, in which the threaded portion 6 of the plug 5 is placed. 10 through holes, a ball valve 12 with a diametrically located passage hole 13, as well as a first seat seal 14, which is located coaxially with the first through hole 8 in the corresponding annular groove 15, made on p the surface of the inner cavity 9. The plug 5 is made with a through axial hole 16 for the working medium, and the second nozzle 7 is located coaxially with the plug 5. The second seat seal 17 is placed in the annular groove 18, which is made in the plug 5 and coaxially with it, and pressed with the help of the plug 5 to the surface portion of the ball valve 12, located opposite the surface portion of the ball valve 12, interacting with the first seat seal 14. The first pipe 2 is located coaxially with the first through hole 8. The seat seals 14 and 17 are made of polymeric material, for example, fluoroplastic.

In each plate element 3 and 4, at least one hole is made, respectively 19 and 20, for a threaded fastener, for example a bolt. The plate elements 3 and 4 are located opposite each other in a plane perpendicular to the axis 11.

In a preferred embodiment of the utility model, the plate elements 3 and 4 are located symmetrically with respect to the plane 21 passing through the center 22 of the ball valve 12 and perpendicular to the axis of rotation 23.

The ball valve 12 is equipped with remote control (mechanical, electromechanical, pneumatic or hydromechanical) and placed on the housing 1 means for rotating it around an axis 23 perpendicular to the axis 11. In a preferred embodiment of the utility model, means for rotating the ball valve 12 are made similarly to what is described in the prototype, namely: in the form of a rod 24, located coaxially to the axis 23 (coaxial to the ball valve 12) and tightly relative to the housing 1, for example using a sealant s rings 25 (007,5-010,5-19, GOST 9833-73). One end of the rod 24 is placed in the corresponding blind hole 26, made in the ball valve 12. At the other end of the rod 24, for example with the help of the nut 27, is fixed a plate 28 with a leash 29 and two bends 30 and 31, which alternately interact with the one made on the body 1 emphasis 32, respectively, in the open (figure 2) and closed (figure 3) positions of the ball valve 12. At the end of the leash 29, a hole 33 is made for connecting the leash 29 with remote controls, for example, with a central residential cable (not shown in the drawings )

Ball valve works as follows.

The housing 1 of the ball valve with threaded fasteners located in the holes 19 and 20, is fixed to the wall, stiffener, etc. elements of the facility in which the hydraulic system with flexible hoses is located. The ends of the corresponding flexible hoses of the hydraulic system are put on the nozzles 2 and 7. To the leash 29 is connected the Central core of the cable, the braid of which is fixed on any adjacent fixed element. After this device

ready for work, which is similar to how the prototype works. In the position of the leash 29 shown in FIG. 2, the ball valve 12 connected to the rod 24 is positioned so that its passage opening 13 coincides with the first 8 and second 10 through holes and the working medium freely passes through the ball valve. By turning the leash 29 90 ° clockwise until the bend contacts the focus 32, the ball valve 12 also rotates 90 ° and blocks the path to the flow of the working medium.

The utility model can be used to control the flow of the working medium transported through various hydraulic systems with flexible hoses.

Claims (2)

1. Ball valve containing a housing with an internal cavity communicating with two coaxially located through holes, the first through hole is intended for the working medium, and in the second threaded through hole there is a threaded section of the plug with an axial through hole for the working medium, in the inner cavity of the housing ball valve equipped with remote-controlled and placed on the housing means for its rotation around an axis perpendicular to the axis of the through holes, and ne a saddle seal located coaxially with the first through hole in the corresponding annular groove made on the surface of the inner cavity of the housing, and the second saddle seal is located coaxially with the second through hole and pressed with a screw plug to the surface portion of the ball valve, located opposite the surface area of the ball valve, interacting with the first seat seal, characterized in that it further comprises two nozzles for connecting the corresponding their flexible hoses and two plate elements, each of which is made with at least one hole for a threaded fastener, while the first pipe is aligned with the first through hole and is integral with the body, the second pipe is aligned with the cork and is integral with it the saddle seals are made of polymeric material, the second saddle seal being placed in an annular groove made in the cork and aligned with it, and the plate elements are integral with the housing and are located opposite to each other in a plane perpendicular to the axis of the through holes. 2. The ball valve according to claim 1, characterized in that the means for rotating the ball valve are made in the form of a rod located coaxially to the ball valve and hermetically relative to the housing, while one end of the rod is placed in its corresponding blind hole made in the ball valve, and on the other end of the rod is fixed a plate with a leash and two bends, interacting in turn with a stop made on the housing, respectively, in the open and closed positions of the ball valve, the leash is made with an opening for connecting it to tantsionnymi control means, and the plate members are located symmetrically about a plane passing through the center of the rotary valve and is perpendicular to its rotation axis.